Effects of rooting hormones on the juvenile stem cuttings of Annona muricata Linn. (Annonaceae)

• Autorzy: Dada C.A. , Kayode J. , Arowosegbe S.
• Języki publikacji: EN

Abstrakty

EN

Annona muricata is a recognized medicinal plant species. Despite its usefulness, adequate attention has not been given to its propagation and cultivation. Therefore, this study investigates the effect of some rooting hormones on juvenile stem cuttings of Annona muricata. Uniform, healthy, single node leafy stem cuttings were obtained from eighty (80) uniformly growing seedlings. The cuttings were treated with 1mg/ml of Indole Acetic Acid (IAA), 1 mg/ml of Indole Butyric Acid (IBA), coconut water and distilled water as control, using the quick dip method. The percentage survival of the cuttings, percentage of die back, number of new roots formed per cutting, length of new roots formed, and number of new shoot were assessed after 60 days. Results obtained revealed that the species responded differently to the four treatments. Coconut water had the highest survivor percentage (100%) and IBA had the lowest (25%). Coconut water had the highest mean number of roots (5.25) and IBA had the least (1.75), but there was no significant difference between the values obtained from IBA and distilled water. IAA had the highest mean value (1.80) for new shoots, while IBA had the least value and there was no significant difference between the values obtained from coconut water and distilled water. Significant differences, however, did abound in the root length. Coconut water had the highest mean root length value (4.70 cm), followed by distilled water (1.95 cm), while IBA had 1.55 cm and IAA had the least value (0.80 cm). Thus the use of coconut water might enhance the development of stem cuttings of Annona muricata.

• Wydawca: -
• Czasopismo: World News of Natural Sciences
• Rocznik: 2019
• Tom: 23
• Opis fizyczny: p.336-342,fig.,ref.

Twórcy

autor

Dada C.A.

• Institute of Science Laboratory Technology, Ekiti State University, Ado-Ekiti, Nigeria

autor

Kayode J.

• Department of Plant Science and Biotechnology, Ekiti State University, Ado-Ekiti, Nigeria

autor

Arowosegbe S.

• Department of Plant Science and Biotechnology, Ekiti State University, Ado-Ekiti, Nigeria

Bibliografia

• [1] Acha, I. A., Shiwachi, H., Asiedu, R. and Akoroda, M. O. 2004. Effect of auxins on root development in yam (Discorea rotundata) vine. Tropical Science, 44: 80-84
• [2] Adekola, O. F and Akpan, I .G. 2012. Effects of Growth Hormones on Sprouting and Rooting of Jatropha Curcasl. Stem Cuttings. J. Appl. Sci. Environ. Manage. 16 (1), 168
• [3] Agele, S. O., Ayankanmi, T. G. and Kikuno, H. 2010. Effects of synthetic hormone substitutes and genotypes on rooting and mini tuber production of vine cuttings obtained from white yam (Dioscorea rotundata Poir). African Journal of Biotechnology, 9(30), 4714- 4724
• [4] Aktar, S., Nasiruddin, K. M. and Hossain, K. 2008. Effects of different media and organic additives interaction on in vitro regeneration of Dendrobium orchid. J. Agric. Rural Dev. 6: 69-74
• [5] Baskaran, P., Velayutham, P. and Jayabalan, N. 2009. In vitro regeneration of Melothria maderaspatana via indirect organogenesis. In vitro Cell. Dev. Biol. Plant, 45: 407-413
• [6] Bhattacharya, S., Bandopadhyay, T. K. and Ghosh, P. D. 2010. Somatic embryogenesis in Cymbopogon pendulus and evaluation of clonal fidelity of regenerants using ISSR marker. Sci. Horticult. 123: 505-513
• [7] Cheong, E. J., Mock, R. and Li, R. 2009. Optimizing culture medium for meristem tissue culture of several Saccharum species and commercial hybrids. Technol. 29: 149-165
• [8] Follosco-Edminston M .P. 2002. Rooting of stem cuttings in Intsia bijuga (Colebr.) Kuntse of Family Caesalpiniaceae. Proceedings of the International Workshop of BIO-REFOR. Pp. 112-117.
• [9] Hartmann, H. J., Kester, D. E. Davies, F. I. and Geneve, R.L. 1997. Plant propagation: Principle and practices. 6th edition. New Jersey: Prentice Hall. 770 pp.
• [10] Hartmann, H. j., Kester, D. E., Davies F. I. and Geneve, R. L. 2000. Plant Propagation: Principles and Practices.7th ed. Prentice Hall, Upper Saddle River, NJ, USA.
• [11] Maddock, S.F., Lancaster, V.A., Risiott R. and Franklin, J. 1983. Plant regeneration from cultured immature embryos and Inflorescences of 25 cultivars of wheat (Triticum aestivum). J. Exp. Bot. 34: 915-926
• [12] Mulabagal, V. and Tsay, H. S. 2004. Plant Cell Cultures: An alternative and efficient source for the production of biologically important secondary metabolites. Int. J. of App. Sci. and Eng. 2(1): 29-48
• [13] Nasib, A., K. Ali and S. Khan, 2008. An optimized and improved method for the in vitro propagation of kiwifruit (Actinidia deliciosa) using coconut water. Pak. J. Bot. 40: 2355-2360
• [14] Olaniyan, A. A., Fagbayide, J. A. and Adewusi, H. G. 2006. Effects of varieties and local rooting hormones on air layering of sweet orange (Citrus sinensis (L.) Osbeck) in Ibadan. Proceedings of the 24th Annual Conference of the Horticultural Society of Nigeria. 17th- 22nd September, 2006.
• [15] Pena-Ramirez, Y.J., Juarez-Gomez, J., Gomez-Lopez, L., Jeronimo-Perez, J.L., Garcia-Shesena, I., GonzalezRodriguez, J. A. and Robert, M. L. 2010. Multiple adventitious shoot formation in Spanish Red Cedar (Cedrela odorata L.) cultured in vitro using juvenile and mature tissues: An improved micropropagation protocol for a highly valuable tropical tree species. In vitro Cell. Dev. Biol. Plant, 46: 149-160
• [16] Robinson, J.C., 1996. Bananas and Plantains. CAB International, Cambridge, UK. ISBN: 9780851989853, Pp: 104-127.
• [17] SAS. 1999. Proprietary software release 8.2 SAS Institute Inc. NC, USA.
• [18] Schultes, R. E. and Raffau, F. 1990. The healing forest: Medicinal and Toxic Plants of the Northwest Amazonia. Portland: R.F. Dioscorides Press.
• [19] Trevisan, F. I. 2005. Optimization of in vitro organogenesis in passion fruit (Passiflora edulis f. Flavicarpa). Scientia Agricola, 62(4), 346-350
• [20] Yong, J.W.H., L. Ge, Y.F. Ng and S.N. Tan, 2009. The chemical composition and biological properties of coconut (Cocos nucifera L.) water. Molecules, 14: 5144-5164
• [21] Yoon, Y., Hosakatte, N.M., Eun, J. H. and Kee, Y.P. 2007. Biomass production of Anoectochilus formosanus hayata in a bioreactor system. Journal of Plant Biology, 50 (5), 573-576
• [22] Awodele O, Ishola IO, Ikumawoyi VO, Akindele AJ, Akintonwa A. Toxicological evaluation of the lyophilized fruit juice extract of Annona muricata Linn. (Annonaceae) in rodents. J Basic Clin Physiol Pharmacol. 2013 Dec 18: 1-11. doi: 10.1515/jbcpp-2013-0085
• [23] Adewole SO, Ojewole JA. Protective effects of Annona muricata Linn. (Annonaceae) leaf aqueous extract on serum lipid profiles and oxidative stress in hepatocytes of streptozotocin-treated diabetic rats. Afr J Tradit Complementary Altern Med 2009; 6: 31-40
• [24] Takahashi JA, Pereira CR, Pimenta LP, Boaventura MA, Silva LG. Antibacterial activity of eight Brazilian Annonaceae plants. Nat Prod Res 2006; 20: 21–6
• [25] Liaw CC, Chang FR, Lin CY, Chou CJ, Chiu HF, Wu MJ, et al. New cytotoxic monotetrahydrofuran annonaceous acetogenins from Annona muricata. J Nat Prod 2002; 65: 470–5
• [26] Chang FR, Liaw CC, Lin CY, Chou CJ, Chiu HF, Wu YC. New adjacent bis-tetrahydrofuran annonaceous acetogenins from Annona muricata. Planta Med 2003; 69: 241–6
• [27] Ana V. Coria-Téllez, Efigenia Montalvo-Gónzalez, Elhadi M. Yahia, Eva N. Obledo-Vázquez. Annona muricata: A comprehensive review on its traditional medicinal uses, phytochemicals, pharmacological activities, mechanisms of action and toxicity. Arabian Journal of Chemistry Volume 11, Issue 5, July 2018, Pages 662-691. https://doi.org/10.1016/j.arabjc.2016.01.004